Course builds on subjects Parametric modeling – Pro/Engineer, Finite element method - ANSYS Workbench, Diagnostics systems and courses from previous semester. For those areas, 8 projects in total are announced, according to actual research projects or industrial cooperation. Students are divided into groups of 3 to 5 members. Each team solves two projects. Themes contain challenging structural tasks. To be able to successfully solve these problems, students have to apply gained knowledge, methods and procedures. Each topic is headed by supervisor, who ensures professional leadership; checks process; analyzes faults; and consults the possible solutions. Synthetic thinking is emphasised, as well as ability to formulate own conclusions. Project output is physical implementation and experimental verification of the proposed design. At the end of the course, it is necessary to defend the project.
</br>
Selected themes of projects: </br>
Film thickness mapping in hydrodynamic bearing.
The design of microphone array for acoustic power measurement.
The design of device for studying impact-loaded contacts.
Proposal and implementation of facial 3D scanner.
Cost and design optimization of chassis tester ModularTest ST 100.
The design of guiding mechanism for human body 3D digitization.
The design of experimental design for friction analysis in artificial hip joint.
The design of harmonic oscillations mechanical exciter.
</br>This course was supported under the FabLabNet project from the European Regional Development Fund within the programme "Interreg Central Europe". The course uses facilities of the open-access student workshop "StrojLab", built with the support of Institute of Machine and Industrial Design and the FabLabNet project.